Electronic grade diamond which forms the basis of the transistor research work. Courtesy of DMD Inc.

Abstract:
Diamond Microwave Devices Ltd, DMD has placed a contract with the London Centre for Nanotechnology (LCN) for studies related to diamond's electronic properties.

The prospect of diamond transistors moves closer as LCN and DMD sign contract

London, UK | Posted on February 11th, 2008

DMD, a subsidiary of Element Six which is the world leader in the production of all forms of synthetic diamond for industrial use, is actively working on a new generation of electronic components based on diamond rather than silicon. This work moves the prospect of active switching needed for RF components closer to reality. "The work will be to investigate the mobility of delta-doped chemical vapour deposition (CVD) diamond and to apply the results within a 2D physical model for a diamond transistor," explains Richard Lang, general manager of DMD Ltd.Image of electronic grade diamond which forms the basis of the transistor research work

Delta doping is a technique that has been proposed to enable active electronic devices such as MESFETs (MEtal Semiconductor Field Effect Transistors) to be fabricated in diamond. In this technique, a thin layer of highly boron-doped diamond buried within the intrinsic diamond donates carriers (holes) to create a conduction channel between the metal source and drain. Such a design approach is needed because only p-type dopants are currently feasible for diamond and so efforts have been focused on novel structures that can create the active switching needed for transistor function taking into account this factor.

DMD's contract with the London Centre for Nanotechnology is to investigate mobility of delta-doped material. Mobility gives a measure of the efficiency of a transistor's function and the study will give an indication of diamond's possible performance as an active device. The London Centre for Nanotechnology is a multi-disciplinary organisation at the cutting edge of science and technology that is involved with research at the nanoscale.

Dr Richard Jackman, who will lead the research at the LCN, says, "Diamond offers enormous potential for high performance devices, but brings with it some challenges that are new to the electronics sector. The experience within DMD, when allied to the broad range of capabilities of the London Centre for Nanotechnology, makes this exciting collaboration unique in the world.

DMD was set up in late 2006 with the aim of creating the next generation of high power, high temperature semiconductor devices based on single crystal CVD diamond for use primarily in microwave power amplifiers and transmitters that are used in a broad range of applications spanning electronic defence and communications.

For more information on DMD Inc. please visit www.diamondmicrowavedevices.com

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About London Centre for NanotechnologyThe London Centre for Nanotechnology, LCN, is a UK based multidisciplinary enterprise operating at the forefront of science and technology. It is a joint venture between University College London and Imperial College London and is based at the Bloomsbury and South Kensington sites. It has a unique operating model that accesses and focusses the combined skills of the departments of chemistry, physics, materials, medicine, electrical and electronic engineering, mechanical engineering, chemical engineering, biochemical engineering and earth sciences across the two universities.